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Vibration energy harvesting with piezoelectric ceramics working in d33 mode by using a spring-mass-spring oscillator

Ying Li, Dezheng Yin, Xiangyang Cheng, Jing Chen, Anda Zhou, Xunkai Ji, Yingwei Li

2020Journal of Applied Physics27 citationsDOI

Abstract

This paper proposed a piezoelectric energy harvester based on a spring-mass-spring oscillator, of which the piezoelectrics operate in the d33 mode. Theoretical analysis reveals that the spring-mass-spring oscillator can not only generate a larger vibration than that of the ambient system but also buffer the force of possible accidental impact applied on the piezoelectric stacks. By using lead zirconate titanate (PZT-4) ceramics as model materials, we systematically characterized the performance of the energy harvester. Results show that at the resonance frequency, the harvester can output a satisfactory electric field. In addition, it has excellent fatigue resistance, e.g., under 9 g vibration acceleration for a long time about 12 h, the electric voltage output of the harvester nearly kept constant and only a slight fluctuation was observed.

Topics & Concepts

Spring (device)Lead zirconate titanatePiezoelectricityVibrationMaterials scienceEnergy harvestingElectric fieldAcousticsCeramicAccelerationVoltageResonance (particle physics)Energy (signal processing)Electrical engineeringComposite materialPhysicsOptoelectronicsStructural engineeringEngineeringFerroelectricityAtomic physicsDielectricQuantum mechanicsClassical mechanicsInnovative Energy Harvesting TechnologiesAdvanced Sensor and Energy Harvesting MaterialsEnergy Harvesting in Wireless Networks
Vibration energy harvesting with piezoelectric ceramics working in d33 mode by using a spring-mass-spring oscillator | Litcius